Drew Yates examples of work by Drew Yates

Drew Yates Examples of work: 2016/2017

Margate Music Pavillion Rock sampling & wood printing

Drew Yates Studio 6 Stefania Boccaletti & Fiona zisch

750mm

The scale is important to intergrate the aeroponic module into the system.

100mm

Tesselated voronoi shell

Light Frame structure

Potato

Design

1500 mm

The scale is important to intergrate the aeroponic module into the system.

DESIGN IMPUT 2: Aeroponic system

DESIGN INPUT: Potato cell structure

Voronoi Cell wireframe module

Drew Yates Studio 6 Stefania Boccaletti & Fiona zisch

1:50

Plans

1:50 North

Brief Bio-plastic factory The Brief handed to Bio-Morph from BREEAM was to build a facilty that can manufacture bio plastic cladding panels for the construction industry. The panels would be used on the facade of buildings. The process for the building is to take in potatoes from local restaurants whilst growing potatoes to create plant starch. The starch then is processed into bioplastic filament, which is then printed from robots into 3d panels which are bespoke to Order. The facility program requirements are as follows: 1. Growing Potatoes Cultivating 100kg Potatoes a month will yield 23kg of potato starch the starch can either be used through the bioplastic process or surplus starch can be sold to the market, as starch has many different qualities. 2. Bio plastic factory The factory will have a range of machinery from crushing the potatoes into starch milk distillery through to starch powdering and drying. Starch is then mixed into glycerol and hydrocholric acid to create bioplastic granules. The granules are heated and extruded through a single screw extruder into Bioplastic filament. 3. 3D Printing Bio plastic panels Robotic arms will then print the custom designed panels. The panels will then go through testing and will be stored before being sent to sites. 4. Offices The offices will accommodate 40 staff from admin of the neccessarry suppliers and marketing of the panels, sales team, and logistics. The factory technicians will also have a station here. 4. Office canteen Coffee shop. Light and requirement for a centralised space 5. Depot for deliveries

Client Sun

Potato Ecological System diagram

INPUT

Proposed building network Lighting System Use of natural light

Bio plastic Panels

INPUT

Electricity

BREEAM Bio plastic factory

INPUT

Production machinery

72 metres

12.8metres

12.8 metres

9.5 metres Starch 23kg/100 kg Potatoes harvested

INPUT

CO2, pollutants, Ozone, Dust INPUT

INPUT

Growing Potatoes

Water including starch process

INPUT

Electricity

Water nutrient solution

Plants

INPUT

Air

INPUT

Bio plastic Granules

Ventilation system

INPUT

Electricity

C02 Water Vapour

INPUT

Seeds

Heating system

INPUT

Fertilizer

OUTPUT

Potatoes

Light

Plant COMPONENTS PAGE

water

Schedule of accomodation Bio-plastic factory The Brief handed to Bio-Morph from BREEAM was to build a facilty that can manufacture bio plastic cladding panels for the construction industry. The panels would be used on the facade of buildings. The process for the building is to take in potatoes from local restaurants whilst growing potatoes to create plant starch. The starch then is processed into bioplastic filament, which is then printed from robots into 3d panels which are bespoke to Order. The facility program requirements are as follows: 1. Growing Potatoes Cultivating 100kg Potatoes a month will yield 23kg of potato starch the starch can either be used through the bioplastic process or surplus starch can be sold to the market, as starch has many different qualities. 2. Bio plastic factory

The factory will have a range of machinery from crushing the potatoes into starch milk distillery through to starch powdering and drying. Starch is then mixed into glycerol and hydrocholric acid to create bioplastic granules. The granules are heated and extruded through a single screw extruder into Bioplastic filament. 3. 3D Printing Bio plastic panels

Robotic arms will then print the custom designed panels. The panels will then go through testing and will be stored before being sent to sites.

4. Offices

The offices will accommodate 40 staff from admin of the neccessarry suppliers and marketing of the panels, sales team, and logistics. The factory technicians will also have a station here. 4. Office canteen Coffee shop. Light and requirement for a centralised space 5. Depot

8. 1.

for deliveries and materials for facility 6. Courtyards public access as part of giving back to the community

7. Reception

greeting guest and clients 8. WC

Public gardens offer the local community a chance to relax off the polluted road.

The starch is turned into bio plastic granules. The granules are then extruded into a filament for 3d printing.

Starch production stage. The starch in extracted from the potatoe and filtered into a milk where it is then dried into powder.

The green line follows the passage of the public into the building. A office employee using the canteen or sitting in one of the courtyards.

Potatoes every 4 months are harvested each allotment yield is roughly 80 kg, all for 350kg potatoes per 3 months Depot entrance. unloading of materials Start of manufactoring process

Design Development Potato growth dimensions

10 plants 18.7kg 1.1 kg of potato potatoes starch

8 kg bio plastic filament

40 plants 74 kg 2.5 kg of potato potatoes starch

8 kg bio plastic filament

The Brief handed to Bio-Morph from BREEAM was to build a facilty that can manufacture bio plastic cladding panels for the construction industry. The panels would be used on the facade of buildings. The process for the building is to take in potatoes from local restaurants whilst growing potatoes to create plant starch. The starch then is processed into bioplastic filament, which is then printed from robots into 3d panels which are bespoke to Order. The facility program requirements are as follows: 1. Growing Potatoes

5000mm

Cultivating 300kg Potatoes a month will yield 25kg of potato starch the starch can either be used through the bioplastic process or surplus starch can be sold to the market, as starch has many different qualities. The ideal amount of space for the potato plant decided the amount of space require for the grid. The space was then divide upon the site

Potatoe plants have 500mm, for every 10 plants grown 37 grams of starch

5000mm

The potatoes could be situated near the road and grown with other crop like ivy which like to take particulates out of the air

Open courtyard containing a variety of trees from shade in summer and reatining rain water.

Potatoes need water and sunlight to growth and give a good yield.

Water retained through the courtyard could irrigate the potatoes

The white is the green open air part of the building

GRID defined through dimension of green spaces and potatoe gorwing areas

Sun studie January

Purple is the factory

Circulation in green is the public acces

Sun studies showed that throughout the year the area was sun but the area on the west of the site had more sun. So for growing potatoes the facade towards the east would be better

Sun studies June The sun in june is high in the sky, for the offcies i will have to create some shade. This drawing representing the pollution on the road and the possibility of creating a barrier between the road and the interior of the site. I like the concept of the building greening the road.

Plan 1:100

Section E

Section D

21 June 21 July/21 May

21 August/21 April

21 Sept/21 Mar

Section A

21 Oct/21 Feb

21 Nov/ 21 Jan

21 Dec

Section B Section C

Section Section A,B,C,D,E 1:100

Axonometric Model Exploded AXO

envelope with different scale depending on the programmes below

Steel grid

Internal partitions

Floor plate

Perspective views